Longest Ever Graphene Nanoribbon Made

Chemists have used an iterative process to synthesise the longest nanoribbon to date, consisting of 30 linearly fused aromatic rings with a length of 7.7nm.

Graphene nanoribbons are almost one-dimensional structures with promising applications in and photonics. But current synthesis methods fail to control structural variables – such as width, length and doping – that are key to their properties. Organic synthesis in solution provides the best atomic precision, but only yields small nanoribbons due to the large number of steps and complicated purifications.

Now, a team led by Aurelio Mateo-Alonso of POLYMAT in Spain, has developed a novel Lego-like methodology for the preparation of monodisperse nitrogen-doped nanoribbons. Using two distinct molecular building blocks and a series of iterative deprotection and condensation reactions, researchers managed to precisely synthesize a series of nanoribbons formed by 10, 20, and 30 linearly fused aromatic rings, with respective lengths of 2.9nm, 5.3nm and 7.7nm.

The full story is available below.

Source: Chemistry World